KR20000004832U - Structure of temperature sensor installation - Google Patents

Abstract

The present invention relates to a temperature sensor installation structure of a fume purification device, wherein a temperature sensor installed at an inlet side of a filter canister is installed for each filter canister, and a temperature sensor installed at an outlet side of the filter canister includes a plurality of filter canister outlets. Characterized in that installed on the passage is integrated.

Therefore, it is possible to obtain the effect of reducing the number of parts constituting the temperature sensor unit, reducing the cost and labor.

Description

Structure of temperature sensor installation

The present invention relates to a soot purifying apparatus for purifying exhaust gas of a diesel vehicle, and more particularly, to an improved structure of a temperature sensor installed at both ends of a filter canister. will be.

In general, a diesel vehicle injects air into a cylinder in a diesel engine, and then compresses it and injects diesel gas having high ignition capability into the high temperature converted air to self-ignite the vehicle. Move it.

In such a diesel engine, the fuel gas is incompletely combusted and discharged to cause air pollution. Therefore, a purification device is installed to filter and burn the non-combustible material contained in the exhaust gas. will be.

The appropriate amount of fuel and air flowing into the cylinder of the engine 10 is compressed and ignited to reciprocate the piston, and the exhaust gas generated at this time is collected into the manifold 11 connected to the outside of each cylinder, and the manifold ( 11 is introduced into the soot purification device through an exhaust pipe 12 connected to 11). At this time, the temperature of the exhaust gas is maintained at about 200 ~ 300 ℃.

The soot purification device includes a filter canister 14 and a ceramic filter 15 is installed therein. On the other hand, in the case where it is intended to install the exhaust gas purification device to the engine more than a certain amount of displacement can be a plurality of filter canister 14 through the design change. Exemplary drawings show a structure having two filter canisters 14.

The ceramic filter 15 is densely installed in parallel in the flow direction of the exhaust gas, and its cross-sectional shape has a honeycomb shape, and a plurality of such ceramic filters 15 are collected to form an overall shape. On the other hand, the side on which the exhaust gas flows is open, and the opposite side is blocked. Therefore, the soot material contained in the exhaust gas is collected in the ceramic filter 15. A plurality of segment heaters 16 are installed at the inlet side of the ceramic filters 15. Both ends of each segment heater 16 are provided with a positive terminal 17 and a negative terminal 18, each terminal is connected to a heater drive 21 for supplying power to the segment heater (16).

On the other hand, the values sensed through various control factors are transmitted to the electric control unit 22, and when the electronic control unit 22 operates the heater drive 21, the segment heater 16 generates heat. The soot material generated and collected in the ceramic filter 15 is burned.

In particular, the temperature sensor 23, which is one of the control factors, is installed at the inlet side and the outlet side of each filter canister 14 and used to determine the regeneration time of the heater drive 21.

2 is a circuit diagram showing a conventional temperature sensor unit, which includes a temperature sensor 23, a temperature compensating element 24, an amplifier 25, and the like.

However, in the conventional soot purification apparatus, the temperature sensor unit has to be installed as much as the number of filter canisters provided, there is a disadvantage that the number of mounting parts increases to increase the cost and labor.

Therefore, the present invention is to solve such a conventional problem, by improving the installation structure of the temperature sensor by reducing the number of parts constituting the temperature sensor unit, the temperature sensor installation structure of the smoke purification device that can reduce the cost and labor The purpose is to provide.

The present invention for achieving the above object is to provide a catalytic filter to capture the exhaust fumes and two or more filters incorporating a segment heater capable of burning the collected soot in the in-line state (in-line) A smoke purification device comprising a canister, an electronic controller for controlling the driving of a segment heater, and a temperature sensor unit for sensing a temperature difference across the filter canister and giving a signal to the electronic controller, wherein the temperature sensor unit is the filter. The temperature sensor installed at the inlet side of the canister is provided for each filter canister, and the temperature sensor installed at the outlet side of the filter canister is installed on a passage in which a plurality of filter canister outlets are integrated.

1 is a schematic view showing a temperature sensor installation structure of a conventional smoke purification device;

2 is a circuit diagram showing a conventional temperature sensor unit,

3 is a schematic view showing a temperature sensor installation structure of the soot purification apparatus according to the present invention,

Figure 4 is a circuit diagram of a temperature sensor according to the present invention.

<Description of the symbols for the main parts of the drawings>

14; Filter canister 15; Ceramic filter

16; Segment heater 22; Electronic controller

23a; Inlet temperature sensor 23b; Outlet temperature sensor

24; Temperature compensation element 25; amplifier

The above object and various advantages of the present invention will become more apparent from the preferred embodiments of the invention described below with reference to the accompanying drawings by those skilled in the art.

Hereinafter, with reference to the accompanying drawings will be described in detail the temperature sensor installation structure of the smoke purification device according to an embodiment of the present invention.

3 is a schematic view showing the temperature sensor installation structure of the soot purification apparatus according to the present invention, Figure 4 is a circuit configuration of the temperature sensor according to the present invention. In the meantime, the same components as in the prior art will be described with the same reference numerals.

As shown, the illustration shows an embodiment in which the filter canister 14 is two pieces. However, the present invention is not limited thereto, and it is apparent that an appropriate number of filter canisters 14 may be connected depending on the amount of exhaust gas discharged from the engine 10.

According to the present invention, as mentioned above, each filter canister 14 burns the collected soot in-line with the catalyzed ceramic filter 15 to capture the soot of the exhaust gas. The built-in segment heater 16 is incorporated.

An electronic control device 22 for controlling the driving of the segment heater 16 is installed around the filter canister 14. Although not shown in the drawing, various sensors are installed to display the electronic signal according to the detected control signal. The control device 22 is controlled.

In particular, the temperature sensor unit is installed at the inlet side and the outlet side of the filter canister 14 to detect a temperature difference between both ends and supply a signal to the electronic controller.

In the temperature sensor unit according to a feature of the present invention, a temperature sensor 23a is installed at an inlet side of each filter canister 14, and a temperature sensor 23b is disposed on a passage in which outlets of a plurality of filter canisters 14 are integrated at an outlet side. It is characterized by being installed.

To this end, the pipe connected to the outlet side of the filter canister 14 is changed to a structure in which the outlets of the plurality of filter canisters 14 are combined into one passage, such as a manifold, and the outlet side temperature sensor 23b is formed on the combined passage. Is installed. Since it is preferable to measure the end temperature of the ceramic filter 15, it is advantageous that the integrated passage is installed at the shortest distance from the end of the ceramic filter 15.

As the temperature sensors 23a and 23b, thermocouples are generally used.

On the other hand, as shown in Figure 4, the temperature sensor unit circuit according to the present invention is the temperature sensor (23a, 23b), the temperature compensation element 24, the amplifier 25, etc. to each of the inlet side filter canister 14 The outlet filter canister 14 is provided with only one temperature sensor 23b, the temperature compensating element 24 and the amplifier 25.

As the temperature compensating element 24, an integrated circuit having a temperature compensating circuit is generally used.

Therefore, even if the fume purification device is composed of a plurality of filter canisters 14, a single temperature sensor 23b, a temperature compensating element 24, an amplifier 25, and the like are provided on the outlet side, thereby reducing the number of parts.

The soot purification apparatus of the present invention having such a structure generates power by compression and ignition of fuel and air in the engine 10, and the exhaust gas generated at this time is introduced into each filter canister 14.

The ceramic filter 15 collects the soot material contained in the exhaust gas. If soot is collected more than a certain amount of ceramic filter 15, the flow of exhaust gas is disturbed due to soot, and the temperature and pressure difference between the inlet side and the outlet side of the filter canister 14 is widened by a certain level or more. In operation 22, the segment heater 16 is activated by detecting this. Each segment heater 16 heats and burns the soot material collected in the ceramic filter 15 to a high temperature. As the soot collected in the ceramic filter 15 is removed, the exhaust gas flows normally.

As described above, the above description merely illustrates a preferred embodiment of the present invention, and those skilled in the art should recognize that the present invention can be modified and changed without changing the gist of the present invention.

As described above, the present invention can improve the installation structure of the temperature sensor to reduce the number of parts constituting the temperature sensor unit can obtain the effect of reducing the cost and labor.

Claims (1)

To control the operation of the segment heater and at least two filter canisters with a catalytic ceramic filter to capture the exhaust fumes and a segment heater that can burn off the collected soot in-line. And a temperature sensor unit which senses a temperature difference across the filter canister and gives a signal to the electronic controller, wherein the temperature sensor unit is a temperature sensor installed at an inlet side of the filter canister. And a temperature sensor provided at each filter canister and installed at an outlet side of the filter canister is installed in a passage in which a plurality of filter canister outlets are integrated.